JPS62290260A - Automatic switching system for data/sound transmission/ reception mode - Google Patents

Abstract

PURPOSE:To transmit/receive data, and natural sound without being interfered with each other, to each of terminal equipments through a slow line, by providing a sound transmitter/receiver at the terminal equipment, and an automatic mode switcher which controls whether the sound transmitter/receiver should be connected or not, to a line. CONSTITUTION:Each of terminals 1 and 2 is constituted so that it is switched to a data transmission/reception mode so as to receive the data from the terminal at an opposite side, in case of receiving the advance notice of the start of a data transmission from the opposite terminal, and also, to the data transmission/reception mode so as to restore temporarily to the data transmission/reception mode, in case of completing the sending of sound from its own terminal, and furthermore, to the data transmission/reception mode so as to transmit the data, in case of sending the data from its own terminal. On the other hand, when a carrier off from the opposite terminal is detected, a mode is switched to a sound reception mode assuming it as the completion of a data transmission, or interruption, and also, it is switched to a sound transmission/reception mode so as to transmit the sound, in case of transmitting the sound from its own terminal.

Description

[Detailed Description of the Invention] 3. Detailed Description of the Invention [Field of Industrial Application] The present invention relates to a data/voice transmission/reception mode in a terminal device that bidirectionally exchanges digital data and audio signals with the other party. This relates to an automatic switching method.

[Conventional technology]

In a data communication device such as a so-called personal computer, data communication with the other party is performed as shown in FIG. 5(b). As shown in Figure 5(a),
A terminal (A.

B) Data communication between 1 and 2 is via the telephone network 7 as shown in Figure 5 (
It is designed to be carried out as shown in b).

By the way, as a method for transmitting and receiving not only data but also audio signals, the method presented in the paper ``Study of audio support method in Videotex'' (1986 National Institute of Electronics and Communication Engineers General Conference 1392) is known. ing. In this case, voice is coded and then transmitted as data, but this is only applicable to high-speed lines such as digital telephone networks. For example, NTT (
This means that it can be applied to high-speed lines such as the digital telephone network adopting the Mitaka model system (Nippon Telegraph and Telephone Corporation).

[Problem that the invention seeks to solve]

Therefore, the reality is that such voice transmission methods are difficult to apply to conventional low-speed lines such as analog telephone lines. On the other hand, it is also possible to transmit natural audio in analog real time, but when transmitting in this way, it is also necessary to send and receive data and audio while controlling switching between each terminal. It is.

An object of the present invention is to automatically switch the data/voice transmission/reception mode so that data and natural voice can be transmitted and received at each terminal without mutual interference when natural voice is exchanged between terminals via a low-speed line in addition to data. There is a method to provide.

[Means for solving problems]

The purpose of the above is that each terminal detects the carrier from the other party's terminal, when a special mode is detected, when audio transmission from the own terminal is completed, or when audio reception from the other party's terminal is interrupted. Automatically switches to data transmit/receive mode when transmitting data from the own terminal, to voice receive mode when carrier disconnection from the other party is detected, and to voice transmit/receive mode when transmitting audio from the own terminal It was designed so that

[For production]

If there is a notice to start data transmission from the other party's terminal, it will switch to data transmission/reception mode to receive data from the other party's terminal, and if voice transmission from the own terminal has finished, it will temporarily return to data transmission/reception mode. In addition, when data is to be transmitted from the own terminal, the terminal is switched to a data transmitting/receiving mode in order to transmit data. On the other hand, if a carrier disconnection from the other party's terminal is detected, it is determined that the data transmission is complete or interrupted, and the system switches to voice reception mode. mode.

〔Example〕

The present invention will be explained below with reference to FIGS. 1 to 4.

First, the data/voice terminal according to the present invention will be described. FIG. 2(a) shows the system configuration of a communication system including the terminal. The terminals 1-2 can communicate in both directions via the telephone network 7 as before, but the difference is that natural voice can also be communicated in both directions. Therefore, the terminals 1 and 2 according to the present invention are equipped with an audio transmitter/receiver 9, and an automatic mode switch 8 is provided to control whether or not to connect the audio transmitter/receiver 9 to the line. It has become a thing.

Data and voice are exchanged between the terminals 1 and 2 as shown in FIG. 2(b).

FIG. 1 shows a specific configuration of the terminals 1 and 2 according to the present invention. According to this, the automatic switching device 8 mainly generates a transmission request RS to the modem 4, and also controls the connection of the audio transmitter/receiver 9 to the line.

When the RS flip-flop (reset priority, the same goes for RS flip-flops 819 and 828 described later) 821 is set, or when there is a transmission request from the data transceiver 3, the transmission request R5 is sent to the modem 4 via the OR gate 822. The carrier is transmitted from the modem 4. In addition, when the RS flip-prop 819.828 is set, the relay driver 820.829 turns the relay R1°R2(
(not shown) is energized, and its contact 912 (r + ).

924 (r2), the audio transmitter 91 and the audio receiver 9
2 is connected to the line.

The present invention will be explained in detail below, but before that, a method for notifying the start of data transmission from the other party's terminal will be explained. If this notice is given, the mode is switched to data transmission/reception mode, but if this notice is made only by detecting the modem character, there is a risk of malfunction.

That is, if the audio signal frequency component matches the frequency of the modem carrier during audio reception and is continuous, it will be erroneously detected as a data transmission start notice. Therefore, it is only necessary to include special data in the received data, and only when this data is detected will it be detected as a data transmission start notice. In the case of a formula, SYN synchronization etc. can be used as special data, and in the case of a flag synchronization type, a flag etc. can be used as special data.

Now, assuming that data is transmitted in a flag-synchronized manner and that the special data for notifying the start of data transmission is a flag, the present invention will be explained with reference to the control sequences shown in FIGS. 3 and 4.

That is, first, assuming a case where terminal (A) 1 completes data transmission and shifts to voice transmission, when terminal 1 shifts from data transmission to voice transmission, voice activation signal a is output from data transceiver 3. It is now possible to do so.

This voice activation signal a is logically ANDed with the line connection command CML by the AND gate 812, but after that, the RS flip-flop 819 is set via the delay circuit 818, and the RS flip-flop 821 is reset via the OR gate 823. It has become. In other words, in the terminal 1, the transmission request R5 is immediately stopped by the voice activation signal a, but after the time Tz, the transmission request R5 is stopped by the voice activation signal a. An audio transmitter 91 consisting of a relay contact 912, an amplifier 913, a balanced/unbalanced conversion circuit 914, etc. is connected to the line, and an audio signal is output onto the line in place of the previous modem signal. It is. In this way, the terminal 1 is placed in the voice transmission mode, and in this case, the voice activation signal a passed through the OR gate 823 is sent to the delay circuit 82.
Since the RS flip-flop 828 is also set via the terminal 7, the voice receiving section 92 is also connected to the line, and the terminal 1 is eventually placed in the voice transmitting/receiving mode.

On the other hand, terminal (B) 2 constantly monitors the modem carrier from terminal 1, and if a carrier detect signal CD indicating that the carrier is disconnected is obtained as a result, this is detected by AND gate 814. Ueor Gate 82
3 through the RS flip-flop 821, and reset the RS flip-flop 8 through the delay circuit 827.
28 is set. In other words, the transmission request RS is stopped at the time when the carrier detection signal CD of carrier disconnection is obtained, and after the time T2' required for the state to become voice receivable from that point has elapsed, the balance/unbalance conversion circuit 926. An audio receiving section 92 consisting of an amplifier 925, relay contacts 922 and 924, a delay circuit 923, a speaker 921, etc. is connected to the line, and eventually the terminal 2
is placed in voice reception mode. In this case, if the time required from when the carrier from terminal 1 is actually disconnected until it is detected or detected is T5, then if the time relationship is set as T2≧T5 +T2', the terminal In No. 2, the beginning part of the audio to be received can be received more reliably.

Now, when the audio transmission from the terminal 1 ends in such a state, the data transmitter/receiver 3 of the terminal 1 outputs an audio end signal. This signal is sent to RS via AND gate 813 and OR gate 824.
The flip-flops 819 and 828 are reset, and the delay circuit 826 further delays the signal by a time T1, and then the RS flip-flop 821 is set.

Terminal 1 is placed in data transmission/reception mode, and R
By setting the S flip-flop 821, a transmission request R8 is issued, which causes the modem carrier to start transmitting. At this time, the transmission data S from terminal 1
As for D, the flag is first sent out, but if the transmission data SD does not exist, the sending of the flag may be stopped.

On the other hand, in terminal 2, when the carrier from terminal 1 is detected and the flag included in the carrier is detected by the flag detection circuit 811, the output of AND gate 815 is sent to the RS flip-flop via OR gate 824. 8
19.828 is reset, and the RS flip-flop 821 is set after further time TI. The voice reception mode is switched from the voice reception mode to the data transmission/reception mode as it is a notice of the start of data transmission. The problem in this case is that if no measures are taken, the modem carrier sound will be reproduced from the speaker until the modem is switched to the data transmission/reception mode. Although carrier detection requires some time T5',
Until this is detected, the voice receiving section 92 is still connected to the line. The delay circuit 923 is provided to prevent reproduction from the speaker 921 of the modem carrier, and T5'<T 4 (T 1 + T
If the delay time is set to have a relationship such as s', the relay contact 922 will be opened while the modem carrier is being delayed by the delay circuit 923. That is,
If the delay time relationship is set as described above and relay contacts 924 and 922 are inserted into the input and output stages of the delay circuit 923, the ending of the audio signal can be reliably reproduced, but the reproduction of the modem carrier sound is prevented. It is something that will be done.

Finally, to explain the case where terminal 2 starts data transmission while terminal 1 is transmitting audio, when terminal 2 interrupts the audio reception mode, a voice end signal is output from data transceiver 3 in terminal 2. , or data to which a flag has been added is outputted as transmission data SD via a delay circuit 830. The output of gate 817 for flag detection or AND gate 813 is passed through OR gate 824 to RS flip-flop 819.
828 is reset, and furthermore, the RS flip-flop 821 is set after time T1. Terminal 2
is in the data transmission/reception mode, and the sending data SD
However, the beginning of the transmission data SD must always be a flag.

On the other hand, in terminal 1, a flag was detected from the received data RD, and a carrier was also detected.

The RS flip-flops 819 and 828 are reset by the output of the ant gate 815, and the R
The S flip-flop 821 is set. The modem carrier starts transmitting and switches to data transmitting/receiving mode. In addition, if the modem signal (modem signal) generates a data error when voice and modem signals are mixed, do you need an echo canceller? It is necessary to insert f.

〔Effect of the invention〕

As explained above, according to the present invention, when voice as well as data is exchanged between terminals via a low-speed line, each terminal can transmit and receive data and voice without mutual interference. be.

[Brief explanation of the drawing]

FIG. 1 is a diagram showing a specific configuration of a terminal according to the present invention,
FIGS. 2(a) and 4(b) are diagrams showing the system configuration of a communication system including the terminal and how data and voice are exchanged, and FIGS. 3 and 4 are diagrams showing a control sequence according to the present invention. FIGS. 5(a) and 5(b) are diagrams showing the configuration of a terminal and data exchange mode according to the prior art. 3...Data transceiver, 4...Modem, 5...Hybrid circuit, 6...Network control circuit, 8...Automatic mode switcher, 9.Audio transceiver 9.811...Flag detection circuit , 818.826.827.830.923...
Delay circuit, 819°821, 828...RS flip-flop.

Claims (1)

[Claims] 1. An automatic data/voice transmission/reception mode switching system in a terminal that bidirectionally exchanges digital data and audio signals with a partner terminal via a low-speed line, in which each terminal transfers digital data and voice signals from the partner terminal to the other terminal. If a carrier is detected and special data is detected, if the audio transmission from the own terminal is completed, or if you want to interrupt audio reception from the other party's terminal and send data from the own terminal, switch to data transmission/reception mode. , an automatic data/voice transmission/reception mode switching method characterized in that when a carrier disconnection from the other terminal is detected, the mode is automatically switched to the voice reception mode, and when the own terminal is transmitting voice, the mode is automatically switched to the voice transmission/reception mode. 2. Claim 1 in which the transmission of the transmitting modem carrier is interrupted while in the voice reception mode and the voice transmission and reception mode.
Data/voice transmission/reception mode automatic switching method described in Section 1. 3. When switching to data transmission/reception mode based on carrier detection from a partner terminal, received audio is delayed for a period longer than the time from the carrier detection point to the data transmission/reception mode switching point, as set forth in claim 1. Data/voice transmission/reception mode automatic switching method. 4. When transmitting data from the own terminal after interrupting audio reception and starting transmission of the transmission carrier, the transmission data is delayed until the other terminal sufficiently pulls in the carrier and can receive the data.Claim 1 Data/voice transmission/reception mode automatic switching method described in Section 1.